JPH10211276A - Automatic liquid supply/discharge device for peritoneal dialyser, and automatic peritoneal dialyser using the device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a liquid supply/discharge device for a peritoneal dialyser in which contamination or operation mistake is eliminated, in which actuation is performed in predetermined sequence, in which an attitude of a patient need not be a forced one in changing liquid, in which injection of dialysis liquid or discharge of staying liquid can be performed in correct quantity, and which is compact and of simple structure to achieve low cost. SOLUTION: This device is composed to have a chamber 2 having an aperture part (gas aperture part) 5 through which gas can be introduced or discharged, an aperture part (liquid aperture part) 1 through which liquid can be sucked or discharged, and the chamber 2 is parted to two chambers of a chamber having the gas aperture part 5 and a chamber having the liquid aperture part 1. In this case, a flexible diaphragm 4 (or a partition membrane) for sucking liquid into the chamber 2 or discharging it from the chamber 2 by introducing or discharging gas through the gas aperture part is fitted in the chamber 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic liquid supply / discharge device for a peritoneal dialysis device which automatically injects a dialysate into the peritoneal cavity of a patient and discharges the liquid after a predetermined time, and uses the liquid automatic supply / discharge device. To an automated peritoneal dialysis device.

[0002]

2. Description of the Related Art Peritoneal dialysis therapy has advantages such as low treatment costs, frequent need for dialysis patients not to go to the hospital, and easy return to society. I have. Continuous carrying peritoneal dialysis (hereinafter referred to as CAPD)
Abbreviated) can be used to easily exchange dialysate at home, etc.
Many peritoneal dialysis patients have adopted this method because of its low cost. However, although simple, replacement of the bag, attachment and detachment of the connector, and opening and closing of the clamp (opening / closing means) are repeated several times a day, so that the burden on the patient is not small.
In addition, some patients are blind or handicapped, and may be contaminated due to erroneous operation of those patients, resulting in infusion / ejection errors. For this reason, a peritoneal dialysis device that automatically performs the above operation has been devised and improved. In simpler automatic peritoneal dialysis machines, the head causes dialysate to be injected into the patient's peritoneal cavity and drained from the peritoneal cavity. This type has a relatively simple structure, and the injection and discharge are performed by gravity. On the other hand, it is necessary to provide a head necessary for injecting / discharging, and there is a problem in that the posture of the patient at the time of treatment is forced and the apparatus becomes large.

[0003] If a roller pump is used for injecting and discharging a liquid in an automatic peritoneal dialysis machine, it is not necessary to provide a head,
Since the roller rotates regardless of the amount of liquid injected and the amount of liquid drained, despite excessive injection or low amount of liquid remaining in the abdominal cavity,
Forced aspiration can damage the peritoneum. As described above, the conventional liquid supply / discharge device for an automatic peritoneal dialysis device has advantages and disadvantages, and further, has the following common disadvantages. That is, first, since the amount of liquid injected and the amount of liquid discharged are measured as weights by the load cell, the size and the cost are increased. Secondly, the dialysate bag, the drainage bag, the patient's peritoneal catheter, the heating means and the like are connected by conduits, and these conduits are equipped with opening and closing means respectively. In addition, since a series of one opening / closing means is separately operated for one conduit, the control device becomes complicated and causes an increase in cost.

[0004]

SUMMARY OF THE INVENTION A first object of the present invention is to provide an automatic liquid supply / discharge system for a peritoneal dialysis device which can inject and discharge a liquid safely and reliably, and which is small in size and simple in structure. It is to provide a device. In particular, when used as an automatic peritoneal dialysis machine for supplying and draining dialysate and drainage from the patient, there is no contamination, erroneous operation, etc. An object of the present invention is to provide a liquid supply / discharge device for a peritoneal dialysis device that can perform injection and discharge of a retained liquid.

A second problem to be solved by the present invention is that
In addition to the above problems, an object of the present invention is to provide an automatic peritoneal dialysis device that operates in a predetermined order, is small in size, has a simple structure, is inexpensive, and has reduced manual operations during dialysate exchange. .

[0006]

A first feature of the present invention is that:
In order to solve the above technical problem, a chamber having an opening through which a gas can be introduced or discharged (hereinafter, also referred to as a gas opening) and an opening through which a liquid can be sucked or discharged (hereinafter, also referred to as a liquid opening), And a chamber having a gas opening and a chamber having a liquid opening. The chamber is provided with a gas opening and a gas opening, and a gas is introduced or discharged through the gas opening to discharge dialysate or a patient's peritoneal cavity. Flexible diaphragm (diaphragm) that can aspirate and drain liquid into and out of chamber
The technical problem has been solved by providing an automatic liquid supply / drainage device for a peritoneal dialysis device, which has the inside of a chamber.

A second feature of the present invention is that in order to solve the above technical problem, an automatic peritoneal dialysis device using the above-mentioned automatic liquid supply / discharge device for a peritoneal dialysis device as a dialysate supply / discharge device, Alternatively, as a conduit opening / closing device for transporting drainage from a patient's abdominal cavity, (1) the conduit opening / closing means comprises a combination of an interlocking cam and a pusher, and has the same number as the number of the conduits; (3) the conduit opening / closing means is mounted on a rotating shaft; (3) the number of the rotating shafts is smaller than the number of the conduit opening / closing means; and (4) the rotation of the rotating shaft allows any number of conduits to be connected. It is an object of the present invention to provide an automatic peritoneal dialysis apparatus characterized by having a conduit opening / closing device that can be opened, in particular, only one conduit can be opened and the other conduit can be closed.

[0008]

Embodiments of the present invention will be described below with reference to the drawings. 1. FIGS. 1 and 2 show an example of the configuration and operation principle of an automatic liquid supply / discharge device for a peritoneal dialysis device according to the present invention. The automatic liquid supply / drainage device for a peritoneal dialysis device has a semi-spherical upper lid 3 having an opening 1 at the top for introducing or discharging a liquid.
And an opening 5 at the top through which gas can be introduced or exhausted
And a diaphragm (diaphragm) 4 having a peripheral end sandwiched and held by an upper lid 3 and a lower lid 6 forming the chamber 2.

The capacity of the chamber 2 formed by the upper lid 3 and the lower lid 6 is, for example, usually 10 to 100 cc, preferably 20 cc when used in the automatic peritoneal dialysis apparatus shown in FIG.
５０50 cc. A flange 7 is formed outwardly at the peripheral end of the lids 3, 6, a peripheral end of a diaphragm (diaphragm) 4 is sandwiched between the flanges 7, and The part 7 is fixed by suitable fixing means (not shown), for example, by insert molding, welding or screwing means. A tube 14 through which a liquid flows in or out is connected to the liquid opening 1, and one end of a branch tube 11 through which a gas can be introduced or discharged is connected to the gas opening 5. The other end of the tube 11 serves as a driving means for inverting the diaphragm (diaphragm) 4 up and down in the chamber 2 and has a capacity of 20 to 150 cc, preferably 5 to 150 cc.
An air cylinder 8 of 0 to 100 cc, an air pressure sensor 10, and, if necessary, a temperature sensor 12 and the like are connected. However, the driving means of the automatic liquid supply / discharge device for the peritoneal dialysis device of the present invention is not limited to the air cylinder as described above, and may be any device capable of discharging air. A pump or the like that can discharge air and measure the discharge amount can be suitably used. A position detection sensor, for example, an optical sensor (photo interrupter) near the outer cylinder of the air cylinder
And a device provided with a slider resistor (potentiometer) and the like are preferable. By providing this position detection sensor, the chamber measures the gas sucked and discharged, and based on the measured gas, detects the suction or discharge amount of dialysate or drainage from the patient's abdominal cavity, Suction or discharge can be automatically controlled. Further, it is preferable to provide a pressure sensor 10 between the chamber 2 and the air cylinder 8 in order to monitor the pressure in the circuit on the side that supplies air to the chamber 2.

The diaphragm (diaphragm) 4 is formed of a synthetic resin material such as silicone, vinyl chloride resin, natural rubber, thermoplastic elastomer and the like, and usually has a thickness of 0.2 to 0.1 mm.
It is a film of about 5 mm. When the chamber 2 having a capacity of 50 cc is used, the diaphragm (diaphragm) 4 can theoretically discharge 50 cc of liquid by flowing 50 cc of air, and
By discharging 50 cc of air, 50 cc of liquid should be able to flow into the chamber 2. However, in order to actually flow 50 cc of liquid into the chamber 2, the diaphragm (diaphragm) must be completely removed. In order to allow the liquid to flow completely into the chamber by bringing it into close contact with the inner wall of the chamber, it is necessary to discharge 1.4 to 2.0 times the capacity of the chamber 2, that is, 70 to 100 cc of air. Is completely discharged from the chamber 2 so that the volume of the chamber 2 is 1.4 to 2.0.
Twice, that is, 70 to 100 cc of air needs to flow. Therefore, it is necessary to make the capacity of the air cylinder 8 larger than the capacity of the chamber, and the capacity is preferably 1.4 to 2.0 times the capacity of the chamber 2.

2. FIG. 3 is a diagram showing the configuration of the entire automatic peritoneal dialysis system using the liquid supply / discharge device for the peritoneal dialysis device of FIGS. 1 and 2 as an automatic supply / discharge device for dialysate or drainage from a patient. Only the conduit 16 is opened, and the gas in the chamber 2 of the liquid supply / drainage device for the peritoneal dialysis device is discharged from the gas opening to turn the diaphragm (diaphragm) 4 to the gas opening 5 side. The dialysate flows from the first dialysate container 15.

Next, the conduit 16 is closed, only the conduit 20 connected to the storage container 21 is opened, and gas is introduced from the gas opening 5 into the chamber 2 of the liquid supply / discharge device for the peritoneal dialysis device, whereby the diaphragm is opened. (Diaphragm) 4 to liquid opening 1
The dialysate that has been inverted to the side and drawn into the chamber 2 flows out to the storage container 21. By repeating this operation, a necessary amount of the dialysate flows out to the storage container 21. For example, 50
When the cc chamber 2 is used, the above operation may be repeated 20 times to send 1000 cc of the dialysate. In some cases, it is necessary to heat the dialysate before injecting the dialysate into the body of the patient 24. Therefore, the storage container 21 includes a heating means 22 that can heat the dialysate in the storage container 21. It is preferable to provide one. further,
In some cases, it is necessary to use a dialysate having a different concentration from the dialysate in the first dialysate container 15, but in this case, the dialysate in the first dialysate container 15 has a different concentration. By allowing the dialysate to flow into and out of the chamber 2 in the same manner as described above from the second dialysate container 19 in which the dialysate is stored, the dialysate concentration can be changed in the storage container. As described above, the second dialysate container 19
Is necessary or unnecessary depending on the dialysis therapy, but is not a necessary component in the automatic peritoneal dialysis apparatus of the present invention.

In order to inject the dialysate heated in the storage container 21 into the abdominal cavity of the patient 24, only the conduit 20 is opened, and the diaphragm (diaphragm) of the chamber 2 is opened as described above.
4 is turned to the gas opening 5 side, and a predetermined amount of dialysate is sucked into the chamber 2. Next, the conduit 20 is closed, and only the conduit 23 connected to the abdominal cavity of the patient 24 is opened, the diaphragm (diaphragm) 4 of the chamber 2 is turned over to the liquid opening 1 side, and the dialysate in the chamber 2 is discharged to the patient 24. Drain into the abdominal cavity. The above operation is repeated to inject a required amount of dialysate into the abdominal cavity of the patient 24.

The fluid retained in the abdominal cavity of the patient 24 for a predetermined time is opened only by the same operation as described above, and the fluid (retained fluid) retained in the abdominal cavity of the patient 24 is sucked into the chamber 2. . Next, the conduit 23 is closed, only the conduit 25 connected to the drainage container 26 is opened, and the diaphragm (diaphragm) 4 of the chamber 2 is inverted to the liquid opening 1 side to drain the retained liquid sucked into the chamber 2. The liquid is discharged into the liquid container 26. By repeating the above operation, the retained liquid is drained into the drainage container so that the inside of the patient's abdominal cavity does not become negative enough to damage the living body. In order to discharge the retained liquid into the drainage container 26 so that the inside of the abdomen of the patient 24 does not become an extremely negative pressure, it must be constantly monitored by the air pressure sensor 10.

The movement speed of the piston of the air cylinder at the time of discharging the liquid from the conduit connected to the peritoneal catheter inserted into the peritoneal cavity of the patient or the conduit connected to the extension tube connected to the peritoneal catheter, or injecting the liquid into the conduit, is as follows. It is preferably within a predetermined range that does not damage the surface. The moving speed of the piston when the liquid is discharged from the abdominal cavity of the patient is usually 10 to 200 ml / min, for example, 150 ml / min.
ml / min, the moving speed of the piston when injecting the liquid is about 20 to 400 ml / min, for example, 30
0 ml / min. The moving speed of the piston when injecting or discharging the liquid from another conduit is preferably larger than the above-mentioned one in order to shorten the injection or discharge time, and is, for example, 40 to 1000 ml / min.

In the automatic peritoneal dialysis apparatus of the present invention, only one of the conduits is opened, and each of the interlocking cams is rotated by rotating a rotating shaft as a means for opening and closing the other conduit. Preferably, it is activated so that only one of the pushers can be opened from the conduit and the other conduit can be closed depending on the position of the interlocking cam. For example, in the case of five automatic peritoneal dialysis devices having 16, 18, 20, 23, and 25 conduits as shown in FIG. 3, the conduit opening / closing means including the pusher and the interlocking cam is as shown in FIG. It is preferable that the number of interlocking cams 28 mounted on one rotating shaft 27 be up to three. The reason for this is that if there are up to three, if a certain conduit, if this conduit is assumed to be A conduit, the rotating shaft is rotated either forward or negative from the state where the conduit A is open. By doing so, it is easy to close the conduit A and independently open only one other conduit. However, when four or more of the conduit opening / closing means are provided on one rotating shaft, it is physically difficult to open only the target one conduit while keeping the other conduits closed. Becomes In other words, if an attempt is made to open a conduit in which the phase of the interlocking cam is shifted by two or more by one rotating shaft, a state in which another conduit whose phase is shifted by one is necessarily created, which is not preferable. . Conversely, 1
If one conduit opening / closing means is mounted on one rotating shaft, the number of rotating shafts increases, the apparatus becomes complicated, and the control becomes complicated.

The five sets of opening / closing means are arranged at the positions of the rotating shafts so that only one of the conduits 16, 18, 20, 23 and 25 can be opened by the rotation of the rotating shaft 27. In the case of the present conduit opening / closing means, three sets of the first conduit opening / closing means are respectively attached with a phase difference of 120 °, and two sets of the conduit opening / closing means of the second rotating shaft are in the range of 120 to 180 °. It is preferable that they are mounted with a phase difference.

In FIG. 3, when the second dialysate container is not used and the number of the conduits is four, two of the conduit opening / closing means are provided on the first rotating shaft in FIG. The second rotating shaft is provided with two conduit opening / closing means. In this case, two of the conduit opening / closing means are attached to the first rotating shaft with a phase difference of 120 to 180 °, and two of the conduit opening / closing means are attached to the second rotating shaft of 120 to 180 °. It is preferable to mount the conduit opening / closing means on one rotating shaft.
Alternatively, a single unit may be mounted, and one of the conduit opening / closing means may be mounted on another rotating shaft.

As the conduit opening / closing means for opening / closing the conduit by the rotation of the interlocking cam, for example, a means comprising an interlocking cam 28 and a pusher 31 as shown in FIG.
FIG. 5A shows a state in which the conduit is opened. FIG. 5B shows that the interlocking cam 28 is rotated by rotating the rotating shaft 20, and the pusher 31 and the receiving groove are used to connect the conduit 3.
It shows the open / closed state of the conduit when 0 is closed. The conduit 3
As the receiving groove used when closing 0, it is preferable to have a recess having a shape corresponding to the top of the pusher 31, as shown in FIG. In order to determine the position and / or the moving direction of the interlocking cam, it is preferable to provide an optical sensor or an encoder capable of detecting a rotational position near the interlocking cam. With this optical sensor, it is possible to confirm the position of the interlocking cam and to determine in which direction the interlocking cam should be rotated in order to move the pusher of the conduit to be clamped next.

[0020]

Embodiments of the present invention will be described below. Example 1 Configuration and operation of the liquid automatic supply / drainage device for a peritoneal dialysis device of the present invention when used in an automatic peritoneal dialysis device In FIGS. 1 and 2, the liquid opening 1 of the semi-spherical upper lid 3 has a diameter of 5 mm and a semi-spherical shape. The gas opening 5 of the lower lid 6 has a diameter of 4 mm. The maximum diameter portion of the chamber 2 formed by the upper lid 3 and the lower lid 6 is 76 mm, and the capacity is 5 mm.
0 cc. The upper lid 3 and the lower lid 6 are formed of a hard transparent plastic such as polycarbonate, vinyl chloride resin, and polypropylene. In addition, these two lids 3,
A flange 7 is formed outward at a peripheral end of the diaphragm 6, and a peripheral end of the diaphragm (diaphragm) 4 is sandwiched between the flanges 7.
The two flanges 7 are fixed inseparably by insert molding.

An air cylinder having a capacity of 100 cc is connected to one end of the branch tube 11 connected to the gas opening 5, and an air pressure sensor 10 is connected to the other end. The air cylinder 8 having a capacity of 100 cc is used as a drive pump and a measuring means.
The diaphragm (diaphragm) 4 in the chamber 2 is turned upside down by the reciprocating motion of the dialysis fluid, so that the dialysate or the drainage from the abdominal cavity of the patient is sucked into the chamber 2 or the liquid sucked into the chamber 2 Can be measured quantitatively.

2. Suction of dialysate or drainage from the patient's peritoneal cavity and measurement of the amount of drainage by the automatic liquid supply / drainage device for the peritoneal dialysis device can be performed by measuring an integral multiple of the volume of the chamber 2. That is, in the case of the chamber 2 of this embodiment, the measurement is performed as follows according to 50 cc × the number of reciprocating movements of the air cylinder. An optical encoder 9 is provided near the outer cylinder of the air cylinder 8 as a position detection sensor. The detection position L of the optical encoder 9 is
As shown in FIG. 1, when the position of the cylinder of the air cylinder 8 is fully pulled L ₀ , it is determined that the inside of the chamber 2 is filled with the dialysate, and the L is set as shown in FIG. dialysate is discharged from the chamber 2 in the case of L ₁ is the position where pressing eyes full cylinder of the air cylinder 8, it can be determined that the air is filled.

Further, when L is L ₀ , when P ₀ further satisfies the following requirements, it is determined that the inside of the chamber 2 is filled with the dialysate, and when L is L ₁ , the dialysate is discharged from the chamber 2 when P ₁ satisfies the following requirements, to determine the air are met, it is more secure and accurate.

[Number 1] _{K A <P 0 ≦ K B} K C ≦ P 1 ≦ K D wherein K _A state that can not be liquid takes negative pressure suction in the chamber, i.e., the circuit of the manifold side of the chamber 2 (i.e. liquid side circuit ) in is the pressure predetermined value for determining that a state such as when the clogged, or the retentate being discharged intraperitoneal intraperitoneal is empty, K _B and K _C is a diaphragm ( diaphragm) to be in a state of complete contact on the chamber (where the chamber is a pressure predetermined value for determining if not somewhere corrupted leakage of the diaphragm or the entire circuit), K _B is negative pressure There is only a difference that K _C is a positive pressure. K _D
Is a state where positive pressure is applied inside the chamber, contrary to K _A ,
This is a pressure regulation value for judging that somewhere in the entire circuit is in a closed state. The K _A is usually -2.5～-
1.5 kgf / cm ² approximately, K _B is usually -0.7～-1.
0 kgf / cm ² , K _C is usually +1.2 to +1.8 kgf
/ Cm ^2, also _the K _D usually + 2.0~ + 2.5kgf / c
m ² . The absolute value of the lower limit of the K _A and _the K _D is obtained by assuming the pressure exerted on the patient line, smaller negative pressure than the other lines, is set to be a positive pressure.

[0024]

【effect】

1. The liquid automatic supply / drainage device for a peritoneal dialysis device according to the present invention comprises:
The liquid is injected and discharged quantitatively and aseptically in a chamber equipped with a diaphragm (diaphragm).
, While injecting and discharging an accurate amount of dialysate and stagnant solution. Therefore, the liquid is safe and less likely to be transmitted to the living body, and the liquid is injected and discharged quantitatively by the stroke of the cylinder and the piston. . 2. Since the liquid automatic supply / drainage device for the peritoneal dialysis device of the present invention is a metering pump, if it is set up in an automatic peritoneal dialysis device, it is possible to transfer the solution without measuring the weight of the dialysate that has been sent or the retained solution that has been drained. By counting the number of times the piston has been moved and measuring the position of the piston with a position detection sensor, the amount of liquid sent can be quantified. Therefore, there is no need to equip an expensive load cell for weight measurement. 3. The automatic peritoneal dialysis device equipped with the automatic liquid supply / drainage device of the present invention simply sets up the dialysis circuit in the automatic peritoneal dialysis device, and thereafter, the device automatically selects a flow path and closes / opens. It automatically performs almost all operations associated with liquid exchange, such as liquid measurement, warming, injection, drainage, and priming (filling the inside of the conduit with liquid), making it difficult for eyes and hands. Even simple patients can be rescued from accidents caused by contamination or erroneous operation, reducing the burden of manual operation.

4. In addition to the automatic liquid supply and drainage device for the peritoneal dialysis device of the present invention, a conduit opening / closing means comprising a plurality of interlocking cams and pushers attached to each conduit, and an arbitrary number of conduits by rotating only the rotation shaft. By using a conduit opening / closing means that can be opened in an automatic peritoneal dialysis device, in addition to the above-mentioned effects, the device controlling the opening / closing means attached to the conduit can control the opening / closing of the conduit more easily than in the case of an individual case. Therefore, the structure of the entire automatic peritoneal dialysis device becomes relatively simple, and the cost can be reduced.

[Brief description of the drawings]

FIG. 1 shows an automatic liquid supply / discharge device for a peritoneal dialysis device according to the present invention.
FIG. 3 is a diagram illustrating a configuration of the example (a state in which a dialysate is sucked into the chamber 2).

FIG. 2 shows an automatic liquid supply / discharge device for a peritoneal dialysis device according to the present invention.
It is a figure showing composition of an example (state in which dialysate was discharged from the inside of chamber 2).

FIG. 3 is a diagram showing one embodiment of an automatic peritoneal dialysis system using the liquid automatic supply / discharge device for the peritoneal dialysis device of FIGS. 1 and 2;

FIG. 4 is a view showing one embodiment of a conduit opening / closing means arranged on a rotating shaft of the automatic peritoneal dialysis apparatus of the present invention.

FIG. 5 shows a conduit opening / closing means comprising an interlocking cam and a pusher mounted on a rotating shaft, and an open state and a closed state of the conduit by the opening / closing means. (A) Shows the open state of the conduit. (B) shows the closed state of the conduit.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Liquid opening 2 Chamber 3 Chamber upper lid 4 Diaphragm (diaphragm) 5 Gas opening 6 Chamber lower lid 7 Flange 8 Air cylinder 9 Optical encoder 10 Air pressure sensor 11 Branch tube 12 Temperature sensor 13 Air valve 14 Tube 15 First dialysate container 16 Conduit 17 Manifold 18 Conduit 19 Second dialysate container 20 Conduit 21 Storage container 22 Heating means 23 Conduit 24 Patient 25 Conduit 26 Drainage container 27 Rotating shaft 28 Interlocking cam 29 Pusher receiving member 30 Tube 31 Pusher 1K Conduit opening / closing means 2K conduit opening / closing means 3K conduit opening / closing means 4K conduit opening / closing means 5K conduit opening / closing means

Claims (6)

[Claims] 1. A chamber having an opening through which a gas can be introduced or discharged (hereinafter, also referred to as a gas opening), an opening through which a liquid can be sucked or discharged (hereinafter, also referred to as a liquid opening), and the chamber. Flexible, which is provided so as to partition into two chambers, a chamber having a gas opening and a chamber having a liquid opening, and is capable of sucking or discharging a liquid into or from a chamber by introducing or discharging gas through the gas opening. An automatic liquid supply / drainage device for a peritoneal dialysis device, comprising a flexible diaphragm (diaphragm) in a chamber. 2. The gas in the chamber is sucked from the gas opening, whereby the diaphragm (diaphragm) is reversed to the gas opening side, and the liquid is sucked into the chamber.
The liquid automatic supply / discharge device for a peritoneal dialysis device according to claim 1, wherein the gas is introduced into the chamber from the gas opening, whereby the diaphragm (diaphragm) is inverted to the liquid opening side and the liquid is discharged from the chamber. 3. The automatic liquid supply / discharge device for a peritoneal dialysis device according to claim 1, wherein the driving means for the diaphragm (diaphragm) is an air cylinder. 4. The automatic liquid supply / discharge device for a peritoneal dialysis device according to claim 1, wherein the capacity of the air cylinder is 1.4 to 2.0 times the capacity of the chamber. 5. A dialysis solution is introduced into at least a dialysis fluid container (consisting of one or more dialysis containers), a peritoneal catheter inserted into the peritoneal cavity of the patient's abdominal cavity, or an extension tube connected to the peritoneal catheter. Claims 1 and 2 as a storage container for storing the dialysate before infusion, a storage container for drainage from the patient's peritoneal cavity, and means for sucking and sending peritoneal dialysate and drainage from the patient's peritoneal cavity. 3. The automatic liquid supply device according to 3 or 4, wherein the multi-branch conduit (manifold)
Automatic peritoneal dialysis device, wherein the device is connected by an automatic peritoneal dialysis device. 6. A conduit opening / closing device for transporting a peritoneal dialysate or a drainage from a patient's peritoneal cavity, wherein (1) the conduit opening / closing means comprises a combination of an interlocking cam and a pusher, and (2) the conduit opening / closing means is mounted on a rotating shaft; (3) the number of the rotating shafts is smaller than the number of the conduit opening / closing means; and (4) the rotation of the rotating shaft. The automatic peritoneal dialysis device according to claim 5, further comprising a conduit opening / closing device capable of opening an arbitrary number of conduits.